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International Journal of Educational Management & Development Studies

ISSN 2719-0633 (Print) 2719-0641 (Online)

h-index: 11

ICV: 78.5

Utilising educational technologies to support inquiry-based learning in natural science

Benkosi Madlela & Ramnarain Umesh
Volume 5 Issue 3, September 2024

The study explored the technologies that can be used to support Inquiry-Based Learning (IBL) in Natural Science (NS) in Ekurhuleni schools, Gauteng. An interpretivist research philosophy, qualitative research approach and a case study design were employed. Data were collected from participants through interviews and focus group discussions. Findings revealed that the use of IBL methods motivates learners and enables them to understand scientific concepts. However, it is constrained by untrained teachers and lack of resources and time in schools. It was further revealed that some schools have invested in educational technologies that support IBL while some schools have inadequate or lack the required technologies. It is recommended that the Department of Basic Education and schools should train teachers and mobilise material and technological resources that are needed for the implementation of IBL in the science class. In addition, schools should embark on fundraising and income generating projects to raise money for the needed materials and educational technologies. Schools that do not have educational technologies should collaborate with libraries, education institutions and other institutions with available technologies that can be accessed by the learners.

educational technologies, inquiry-based, natural science, Ekurhuleni schools

Abdullah, S., Siew, N. M., & Abbas, M. (2021). The effectiveness of an inquiry-based computer-simulated lesson in physics. In Instructional Technology Research, Design and Development: Lessons from the Field (pp. 401-425). IGI Global.

Akpan, V. I., Igwe, U. A., Mpamah, I. B. I., & Okoro, C. O. (2020). Social constructivism: Implications on teaching and learning. British Journal of Education8(8), 49-56.

Almurashi, W. A. (2016). The effective use of YouTube videos for teaching English language in classrooms as supplementary material at Taibah University in Alula. International Journal of English Language and Linguistics Research4(3), 32-47.

Artayasa, I. P., Susilo, H., Lestari, U., & Indriwati, S. E. (2018). The effect of three levels of inquiry on the improvement of science concept understanding of elementary school teacher candidates. International Journal of Instruction11(2), 235-248. https://doi.org/10.12973/iji.2018.11216a

Barrow, L. H. (2006). A brief history of inquiry: From Dewey to standards. Journal of Science Teacher Education17, 265-278. https://doi.org/10.1007/s10972-006-9008-5

Bevins, S., & Price, G. (2016). Reconceptualising inquiry in science education. International Journal of Science Education38(1), 17-29. https://doi.org/10.1080/09500693.2015.1124300

Brinson, J. R. (2015). Learning outcome achievement in non-traditional (virtual and remote) versus traditional (hands-on) laboratories: A review of the empirical research. Computers & Education87, 218-237. https://doi.org/10.1016/j.compedu.2015.07.003

Churcher, K., Downs, E., & Tewksbury, D. (2014). “Friending” Vygotsky: A social constructivist pedagogy of knowledge building through classroom social media use. Journal of Effective Teaching14(1), 33-50.

Creswell. J.W. (2014). Research Design: Qualitative, Quantitative and Mixed Methods Approaches, (Thousand Oaks: SAGE.

Dunn, J., & Ramnarain, U. (2020). The effect of simulation-supported inquiry on South African natural sciences learners’ understanding of atomic and molecular structures. Education Sciences10(10), 280. https://doi.org/10.3390/educsci10100280

Duran, M., & Dokme, I. (2016). The effect of the inquiry-based learning approach on student’s critical-thinking skills. Eurasia Journal of Mathematics Science and Technology Education12(12). https://doi.org/10.12973/eurasia.2016.02311a

Ebri, U.E. and Oben, E.S. (2022). Strategies for funds generation in public secondary schools in Cross River State. International Journal of Research Publication and Reviews, 3(9), 2112-2124.

Gholam, A. P. (2019). Inquiry-based learning: Student teachers’ challenges and perceptions. Journal of Inquiry and Action in Education10(2), 6.

Gutierez, S. B. (2015). Collaborative professional learning through lesson study: Identifying the challenges of inquiry-based teaching. Issues in Educational Research25(2), 118-134.

Guido, M. (2017). Inquiry-based learning definition, benefits & strategies. Retrieved October26, 2017.

Hakverdi-Can, M., & Sonmez, D. (2012). Learning how to design a technology supported inquiry-based learning environment. Science Education International23(4), 338-352.

Hamat, A., & Embi, M. A. (2010). Constructivism in the design of online learning tools. European Journal of Educational Studies2(3), 237-246.

Inoue, N., & Buczynski, S. (2011). You asked open-ended questions, now what? Understanding the nature of stumbling blocks in teaching inquiry lessons. The Mathematics Educator20(2). 10-23

Joseph, V., Sheikh, I., & Rajani, S. (2022). Inquiry based learning method of teaching in education: A literature review. Webology19(3).

Julita, J. M. (2022). Gardner’s theory of multiple intelligences: The basis for creating a new learning approach appropriate for teaching home economics at Hondagua National High School. Psychology and Education: A Multidisciplinary Journal, 19(1), 120-131. https://doi.org/10.5281/zenodo.10997015

Kapur, R. (2018). The significance of social constructivism in education. https://www.researchgate.net/publication/323825342_The_Significance_of_Social_Constructivism_in_Education  

Kazeni, M., & Mkhwanazi, N. (2020). Life sciences teachers’ understanding, perceptions and adoption of inquiry-based science education in selected South African High Schools. Education and New Developments, 27. https://doi.org/10.36315/2021end006

Kivunja, C., & Kuyini, A. B. (2017). Understanding and applying research paradigms in educational contexts. International Journal of higher education6(5), 26-41. https://doi.org/10.5430/ijhe.v6n5p26

Korkman, N., & Metin, M. (2021). The effect of inquiry-based collaborative learning and inquiry-based online collaborative learning on success and permanent learning of students. Journal of Science Learning4(2), 151-159. https://doi.org/10.17509/jsl.v4i2.29038

Madlela, B. & Ngakane, B. (2024). Implementing open distance and e-learning in teacher training institutions in Eswatini. E-Journal of Humanities, Arts and Social Sciences (EHASS), 5(4), 494-507. https://doi.org/10.25159/UnisaRxiv/000033.v1

Madlela, B. (2022). Exploring educational technologies used by Mthwakazi University rural satellite campuses to implement distance teacher education programmes. Interdisciplinary Journal of Education Research4, 75-86. https://doi.org/10.51986/ijer-2022.vol4.06

May, D., Morkos, B., Jackson, A., Hunsu, N. J., Ingalls, A., & Beyette, F. (2022). Rapid transition of traditionally hands-on labs to online instruction in engineering courses. European Journal of Engineering Education48(5), 842-860. https://doi.org/10.1080/03043797.2022.2046707

McMillan, J.H. & Schumacher, S. (2014). Research in education. New Jersey: Pearson Education.

Minner, D. D., Levy, A. J., & Century, J. (2010). Inquiry-based science instruction—what is it and does it matter? Results from a research synthesis years 1984 to 2002. Journal of Research in Science Teaching, 47(4), 474-496. https://doi.org/10.1002/tea.20347

Marounová, J., & Kacovský, P. (2024). The role of experiment in physics education: Attitudes of upper secondary school students. In Journal of Physics: Conference Series (Vol. 2750, No. 1, p. 012012). IOP Publishing. https://doi.org/10.1088/1742-6596/2750/1/012012

Muianga, X., Klomsri, T., Tedre, M., & Mutimucuio, I. (2018). From teacher-oriented to student-centred learning: Developing an ICT-supported learning approach at the Eduardo Mondlane University, Mozambique. Turkish Online Journal of Educational Technology-TOJET17(2), 46-54.

Ncala, L. E. (2016). Case studies of inquiry-based instruction in life sciences classrooms of selected high schools in Standerton. University of the Free State.

Ngakane, B., & Madlela, B. (2022). Effectiveness and policy implications of using WhatsApp to supervise research projects in open distance learning teacher training institutions in Swaziland. Indiana Journal of Humanities and Social Sciences3(3), 1-10.

Omollo, D. O., & Massam, W. E. (2022). Teachers’ and learners’ perceptions of the use of science content songs in the teaching and learning of ionic bonding. International Journal of Learning and Development, 12(2), 6780-6780.

Pontinen, S., Karkkainen, S., Pihlainen, K. and Raty-Zaborsszky, S. (2019). Pupil-generated questions in a collaborative open inquiry. Education Sciences, 9(2), 156. https://doi.org/10.3390/educsci9020156

Pratama, S. H. H., Arifin, R. A., & Widianingsih, A. W. S. (2020). The use of Youtube as a learning tool in teaching listening skill. International Journal of Global Operations Research1(3), 123-129.

Ramnarain, U., & Hlatswayo, M. (2018). Teacher beliefs and attitudes about inquiry-based learning in a rural school district in South Africa. South African Journal of Education38(1). https://doi.org/10.15700/saje.v38n1a1431

Raymond, L. I., & Wong, T. (2018). Teaching them before we teach: The effectiveness of conducting classroom experiments before teaching the underlying theory. IAFOR Journal of Education6(3), 79-92. https://doi.org/10.22492/ije.6.3.05

Rohman, D., & Fauziati, E. (2022). Gamification of learning in the perspective of constructivism philosophy Lev Vygotsky. Budapest International Research and Critics Institute-Journal (BIRCI-Journal)5(1), 4467-4474. https://doi.org/10.33258/birci.v5i1.4156

Samuel, K.B. & Dudu, W.T. (2017). The influence of assessment on teachers‟ teaching style in life sciences: A case of two high schools in one province of South Africa. Proceedings: Towards Effective Teaching and Meaningful Learning in Mathematics, Science and Technology Education. UNISA/ISTE Conference on Mathematics, Science and Technology Education.

Secore, S. (2017). Social constructivism in online learning: Andragogical influence and the effectual educator. e-mentor70(3), 4-9.

Shamsudin, N. M., Abdullah, N., & Yaamat, N. (2013). Strategies of teaching science using an inquiry based science education (IBSE) by novice chemistry teachers. Procedia-Social and Behavioral Sciences90, 583-592. https://doi.org/10.1016/j.sbspro.2013.07.129

Shana, Z., & Abulibdeh, E. S. (2020). Science practical work and its impact on high students’ academic achievement. JOTSE10(2), 199-215. https://doi.org/10.3926/jotse.888

Singhai, R. (2018). Virtual lab: A powerful learning tool in science. International Journal of Recent Trends in Science and Technology, Special Issue, ACAEE: 51-58.

Smith, E. M., Stein, M. M., Walsh, C., & Holmes, N. G. (2020). Direct measurement of the impact of teaching experimentation in physics labs. Physical Review X10(1), 011029. https://doi.org/10.1103/PhysRevX.10.011029

Suárez, Á., Specht, M., Prinsen, F., Kalz, M., & Ternier, S. (2018). A review of the types of mobile activities in mobile inquiry-based learning. Computers & Education118, 38-55. https://doi.org/10.1016/j.compedu.2017.11.004

Syaripuddin, R., Ahmad, A. R., & Awang, M. M. (2019). The Use of Video in Teaching and Learning 21st Century History Education in Malaysia. In The 2nd International Conference on Sustainable Development and Multi-Ethnic Society (pp. 182-186). Redwhite Pres.

Warner, A.J. and Myers, B.E. (2020). Implementing Inquiry-Based Teaching Methods. University of Florida.

Williams, P. J., Nguyen, N., & Mangan, J. (2017). Using technology to support science inquiry learning. JOTSE7(1), 26-57. https://doi.org/10.3926/jotse.234

Wilson, A. P. (2016). Computer simulations and inquiry based activities in an 8th grade earth science classroom. Culminating Projects in Teacher Development. 7. https://repository.stcloudstate.edu/ed_etds/7

Zalloum, S. N. (2018). The impact of using inquiry-based learning on developing ninth grade students’ pragmatic awareness (A Case Study). College of Graduate Studies, Hebron University.

Benkosi Madlela. Corresponding author. Faculty of Education, Department of Science and Technology Education, University of Johannesburg (UJ). Kingsway Avenue, Auckland Park, Johannesburg, 2006, South Africa. Email: benkosimadlela@gmail.com

Ramnarain Umesh. Faculty of Education, Department of Science and Technology Education, University of Johannesburg (UJ). Kingsway Avenue, Auckland Park, Johannesburg, 2006, South Africa. Email: uramnarain@uj.ac.za

Cite this article:

Madlela, B. & Umesh, R. (2024). Utilising educational technologies to support inquiry-based learning in natural science. International Journal of Educational Management and Development Studies, 5(3), 172-197. https://doi.org/10.53378/ijemds.353093

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